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Query: UMLS:C0022116 (
ischemia
)
91,303
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In brain slices from young (postnatal day (P) 10--15) rat somatosensory cortex, real-time neuronal intracellular Cl(-) concentration ([Cl(-)](i)) recordings were made by an optical technique measuring 6-methoxy-N-ethlquinolinium iodide (MEQ) fluorescence. Oxygen--glucose deprivation (in vitro model of
ischemia
) induced a long-lasting [Cl(-)](i) increase preceded by a rapid, transient [Cl(-)](i) decrease that could not be inhibited by blockers of Cl(-) pumps, Cl(-) channels, or Cl(-) antiporters, but was sensitive to cation-Cl(-) cotransporter inhibitors (bumetanide and furosemide). Use of low external Na(+) or high external K(+) revealed that the Na(+),K(+)-2Cl(-) cotransporter was inhibited by bumetanide and furosemide, whereas the K(+)-Cl(-) cotransporter was preferentially inhibited by furosemide under our experimental conditions. With a reduced inward driving force for Na(+) (reducing Na(+),K(+)-2Cl(-) cotransport), the transient [Cl(-)](i) decrease was only rarely induced by oxygen-glucose deprivation. In contrast, with a reduced outward driving force for K(+) (reducing K(+)-Cl(-) cotransport), the transient [Cl(-)](i) decrease still occurred. These results suggest that the transient [Cl(-)](i) decrease was primarily mediated by a rapid inhibition of the inwardly directed Na(+),K(+)-2Cl(-) cotransporter. Reverse transcriptase-polymerase chain reaction (RT-PCR) experiments suggested that the isoform involved is
NKCC1
. We hypothesize that the initial rapid Cl(-) efflux might effectively delay the irreversible Cl(-) influx that mediates neuronal injury.
...
PMID:Optical imaging reveals cation--Cl(-) cotransporter-mediated transient rapid decrease in intracellular Cl(-) concentration induced by oxygen--glucose deprivation in rat neocortical slices. 1124 66
We examined alterations in Na(+)-K(+)-Cl(-) cotransporter 1 (
NKCC1
) immunoreactivity following
ischemia
. Twelve hours after
ischemia
,
NKCC1
immunoreactivity in the CA1 region and in the hilar region was significantly diminished. Twenty-four hours after
ischemia
,
NKCC1
immunoreactivity was intensified in these hippocampal regions as well as CA2-3. Two days after
ischemia
,
NKCC1
immunoreactivity in the CA1 and the hilar neurons had disappeared, although in the CA2-3 and the granule cell layer
NKCC1
immunoreactivities had recovered to the sham level. This finding suggests that
NKCC1
may play an important role in the ischemic neuronal injury induced by excitotoxicity as well as neuronal edema.
...
PMID:Changes in Na(+)-K(+)-Cl(-) cotransporter immunoreactivity in the gerbil hippocampus following transient ischemia. 1241 53
Our previous study demonstrated that pharmacological inhibition of the Na(+)-K(+)-Cl(-) cotransporter isoform 1 (
NKCC1
) during
ischemia
and reperfusion attenuated neuronal damage and edema. In this study, we further investigated whether
NKCC1
activity contributes to ischemic damage during either
ischemia
or reperfusion. Immunoblotting revealed that expression of
NKCC1
protein was increased following 2-h focal
ischemia
in cerebral cortex. A sustained up-regulation of
NKCC1
in cortex was detected at 4, 8, 12, and 24 h of reperfusion. An increase in the phosphorylated
NKCC1
(
NKCC1
-p) was found at 4 and 8 h of reperfusion. In striatum, a significant increase in
NKCC1
expression occurred between 4 and 24 h of reperfusion and no elevation of
NKCC1
-p signal was observed. Artificial cerebral spinal fluid (aCSF) or 100 microM bumetanide in aCSF were continuously microdialyzed into left cortices either 1 h prior to
ischemia
plus 2-h
ischemia
, or only during 24-h reperfusion. Infarction volume was significantly decreased in the pre-ischemic bumetanide-treated group (P<0.05) but not in the post-ischemic treatment group (P>0.05). In addition, pre-ischemic bumetanide treatment reduced the ipsilateral water content increase by 70% (P<0.05). Inhibition of
NKCC1
did not attenuate poly (ADP-ribose) polymerase cleavage or the number of TUNEL-labeled apoptotic cells in ischemic brains. These results suggest that inhibition of
NKCC1
attenuates cytotoxic edema and necrotic neuronal death during focal
ischemia
. Activation of
NKCC1
activity plays a role in the early stage of ischemic damage.
...
PMID:Inhibition of Na(+)-K(+)-Cl(-) cotransporter during focal cerebral ischemia decreases edema and neuronal damage. 1253 73
We previously demonstrated that pharmacological inhibition of Na(+)-K(+)-Cl- cotransporter isoform 1 (
NKCC1
) is neuroprotective in in vivo and in vitro ischemic models. In this study, we investigated whether genetic ablation of
NKCC1
provides neuroprotection after
ischemia
. Focal
ischemia
was induced by 2 hours occlusion of the left middle cerebral artery (MCAO) followed by 10 or 24 hours reperfusion. Two hours MCAO and ten or twenty-four hours reperfusion caused infarction (approximately 85 mm3) in
NKCC1
wild-type (
NKCC1
(+/+)) mice. Infarction volume in
NKCC1
(-/-) mice was reduced by approximately 30% to 46%. Heterozygous mutant (
NKCC1
(+/-)) mice showed approximately 28% reduction in infarction (P>0.05). Two hours MCAO and twenty-four hours reperfusion led to a significant increase in brain edema in
NKCC1
(+/+) mice. In contrast,
NKCC1
(+/-) and
NKCC1
(-/-) mice exhibited approximately 50% less edema (P<0.05). Moreover, white matter damage was assessed by immunostaining of amyloid precursor protein (APP). An increase in APP was detected in
NKCC1
(+/+) mice after 2 hours MCAO and 10 hours reperfusion. However,
NKCC1
(-/-) mice exhibited significantly less APP accumulation (P<0.05). Oxygen-glucose deprivation (OGD) induced approximately 67% cell death and a fourfold increase in Na+ accumulation in cultured
NKCC1
(+/+) cortical neurons. OGD-mediated cell death and Na+ influx were significantly reduced in
NKCC1
(-/-) neurons (P<0.05). In addition, inhibition of
NKCC1
by bumetanide resulted in similar protection in
NKCC1
(+/+) neurons and astrocytes (P<0.05). These results imply that stimulation of
NKCC1
activity is important in ischemic neuronal damage.
...
PMID:Na(+)-dependent chloride transporter (NKCC1)-null mice exhibit less gray and white matter damage after focal cerebral ischemia. 1567 12
The electroneutral Na-K-Cl co-transporter (NKCC) protein transports Na(+), K(+) and Cl(-) into cells under physiological conditions with a stoichiometry of 1Na(+) :1K(+) :2Cl(-). NKCC is characteristically inhibited by the sulfamoylbenzoic acid "loop'' diuretics, such as bumetanide and furosemide. To date, only two distinct isoforms,
NKCC1
and NKCC2, have been identified.
NKCC1
has a broad tissue distribution, while the NKCC2 isoform is only found in vertebrate kidney. NKCC serves multiple functions, including ion and fluid movements in secreting or reabsorbing epithelia and cell volume regulation. However, understanding the role of
NKCC1
in the central nervous system has just begun.
NKCC1
protein is expressed in neurons throughout the brain. Dendritic localization of
NKCC1
is found in both pyramidal and non-pyramidal neurons.
NKCC1
is important in the maintenance of intracellular Cl(-) in neurons and contributes to GABA-mediated depolarization in immature neurons. Thus,
NKCC1
may affect neuronal excitability through regulation of intracellular Cl(-) concentration. Expression of
NKCC1
protein has also been found in astrocytes and oligodendrocytes. In addition to its role in the accumulation of Cl(-),
NKCC1
may also contribute to K(+) clearance and maintenance of intracellular Na(+) in glia. Our recent studies suggest that
NKCC1
activation leads to high [K(+)](o(-)) induced astrocyte swelling and glutamate release, as well as neuronal Na(+) , and Cl(-) influx during acute excitotoxicity. Inhibition of
NKCC1
activity significantly reduces infarct volume and cerebral edema following cerebral focal
ischemia
.
...
PMID:The role of Na-K-Cl co-transporter in cerebral ischemia. 1584 11
Chloride (Cl-) efflux induces depolarization and contraction of vascular smooth muscle cells. In the basilar arteries from the New Zealand white rabbits, the role of Cl- flux in serotonin-induced contraction was demonstrated by (i) inhibition of Na+-K+-2Cl- co-transporter (
NKCC1
) to decreased Cl- influx with bumetanide; (ii) a disabled Cl-/HCO3- exchanger with bicarbonate free HEPES solution; (iii) blockade of Cl- channels using 5-nitro-2-(3-phenylpropylamino) benzoic acid (NPPB) and indanyloxyacetic acid 94, R-(+)-methylindazone (R-(+)-IAA-94); and (iv) substitution of extracellular Cl- with methanesulfonate acid (113 mmol/L; Cl-, 10 mmol/L). In addition, the expression of
NKCC1
in brain tissues after neonatal hypoxia-
ischemia
was examined at mRNA and protein levels using RT-PCR and Western blotting techniques.
NKCC1
mRNA and protein expressions were increased at 24 and 48 h and returned to normal levels at 72 h after hypoxia insult when compared with the control littermates. In conclusion, Cl- efflux regulates cerebral circulation and the up-regulation of
NKCC1
after neonatal hypoxia-
ischemia
may contribute to brain injury.
...
PMID:Role of Cl- in cerebral vascular tone and expression of Na+-K+-2Cl- co-transporter after neonatal hypoxia-ischemia. 1633 78
Na(+)-K(+)-Cl(-) cotransporter isoform 1 (
NKCC1
) and reverse mode operation of the Na(+)/Ca(2+) exchanger (NCX) contribute to intracellular Na(+) and Ca(2+) overload in astrocytes following oxygen-glucose deprivation (OGD) and reoxygenation (REOX). Here, we further investigated whether
NKCC1
and NCX play a role in mitochondrial Ca(2+) (Ca(m)(2+)) overload and dysfunction. OGD/REOX caused a doubling of mitochondrial-releasable Ca(2+) (P < 0.05). When
NKCC1
was inhibited with bumetanide, the mitochondrial-releasable Ca(2+) was reduced by approximately 42% (P < 0.05). Genetic ablation of
NKCC1
also reduced Ca(m)(2+) accumulation. Moreover, OGD/REOX in
NKCC1
(+/+) astrocytes caused dissipation of the mitochondrial membrane potential (Psi(m)) to 42 +/- 3% of controls. In contrast, when
NKCC1
was inhibited with bumetanide, depolarization of Psi(m) was attenuated significantly (66 +/- 10% of controls, P < 0.05). Cells were also subjected to severe in vitro hypoxia by superfusion with a hypoxic, acidic, ion-shifted Ringer buffer (HAIR). HAIR/REOX triggered a secondary, sustained rise in intracellular Ca(2+) that was attenuated by reversal NCX inhibitor KB-R7943. The hypoxia-mediated increase in Ca(m)(2+) was accompanied by loss of Psi(m) and cytochrome c release in
NKCC1
(+/+) astrocytes. Bumetanide or genetic ablation of
NKCC1
attenuated mitochondrial dysfunction and astrocyte death following
ischemia
. Our study suggests that
NKCC1
acting in concert with NCX causes a perturbation of Ca(m)(2+) homeostasis and mitochondrial dysfunction and cell death following in vitro
ischemia
.
...
PMID:Role of Na+-K+-Cl- cotransport and Na+/Ca2+ exchange in mitochondrial dysfunction in astrocytes following in vitro ischemia. 1703 99
We hypothesize that stimulation of Na+-K+-Cl+ cotransporter (
NKCC1
) causes Na+ overload that may lead to reversal of Na+-Ca2+ exchanger isoform 1 (NCX1) and ischemic neuronal damage. NCX1 protein expression and Ca2+ influx via reversal of NCX were decreased by approximately 70% in NCX1+/- neurons. Compared to NCX1+/+ neurons, NCX1+/- neurons exhibited significantly less cell death (approximately 30%) after 3 h oxygen and glucose deprivation (OGD) and 21 h reoxygenation. Additional neuroprotection was found in NCX1+/- neurons treated with NCX inhibitor KB-R7943. Moreover, expression of NCX1 protein was approximately 40% lower in NCX1+/- brains than in NCX1+/+ brains. However, there was no significant reduction in cerebral infarction in NCX1+/- mice following middle cerebral artery occlusion (MCAO). These data suggest that moderate reduction of NCX1 protein may be not enough to exert protection. We used small RNA-interference (siRNA) approach to further elucidate the role of NCX1 in ischemic cell damage. Efficacy of anti-NCX1 siRNA was tested in astrocytes and approximately 50% knockdown of NCX1 protein expression was achieved after 24-72 h transfection. Reduction in NCX1 protein expression was also found in brains of NCX1+/- mice after the siRNA injection. NCX1+/- mice treated with siRNA showed approximately 20% less MCAO-induced infarction, compared to NCX1+/- mice. Approximately 50% neuroprotection was detected in NKCC1+/-/NCX1+/- mice following MCAO. In conclusion, these data suggest that NCX1 plays an important role in
ischemia
/reperfusion-induced neuronal injury.
...
PMID:Increased tolerance to ischemic neuronal damage by knockdown of Na+-Ca2+ exchanger isoform 1. 1744 70
GABA(A) receptors have dual functions during development. They depolarize immature neurons but hyperpolarize more mature neurons. This functional switch has been attributed to age-related differences in the relative abundance of cation chloride cotransporters, such as KCC2 and
NKCC1
, which regulate chloride homeostasis. Certain insults, such as trauma,
ischemia
, and seizures, if they occur when GABA(A)ergic signaling is hyperpolarizing, such as in the adult brain, can lead to reappearance of the immature, depolarizing synaptic responses to GABA(A) receptor activation. In certain cases, this has been associated with either reduced expression of KCC2 or increase in
NKCC1
. In epilepsy, the depolarizing effects of GABA(A) receptors have been proposed to be important for the acquisition and/or maintenance of the epileptic state. Using the kainic acid model of status epilepticus, we have studied the effects of repetitive neonatal episodes of status epilepticus on the expression of cation chloride cotransporter KCC2 in the neonatal hippocampus. In contrast to adults, seizures increased KCC2 mRNA expression in the CA3 region of the neonatal hippocampus. The contrasting patterns of regulation of KCC2 by seizures in mature and immature neurons may be one of the age-related factors that protect the neonatal brain against the development of epilepsy.
...
PMID:Developmental patterns in the regulation of chloride homeostasis and GABA(A) receptor signaling by seizures. 1791 May 76
Na+-K+-Cl(-) cotransporter isoform 1 (
NKCC1
) and Na+/Ca2+ exchanger isoform 1 (NCX1) were expressed in cortical neurons. Three hours of oxygen and glucose deprivation (OGD) significantly increased expression of full-length NCX1 protein ( approximately 116 kDa), which remained elevated during 1 to 21 h reoxygenation (REOX) and was accompanied with concurrent cleavage of NCX1. Na+/Ca2+ exchanger isoform 1 heterozygous (NCX1+/-) neurons with approximately 50% less of NCX1 protein exhibited approximately 64% reduction in NCX-mediated Ca2+ influx. Expression of NCX1 and
NKCC1
proteins was reduced in double heterozygous (NCX1+/-/NKCC1+/-) neurons. NCX-mediated Ca2+ influx was nearly abolished in these neurons. Three-hour OGD and 21-h REOX caused approximately 80% mortality rate in NCX1+/+ neurons and in NCX1+/- neurons. In contrast, NKCC1+/- neurons exhibited approximately 45% less cell death. The lowest mortality rate was found in NCX1+/-/NKCC1+/- neurons ( approximately 65% less neuronal death). The increased tolerance to ischemic damage was also observed in NCX1+/-/NKCC1+/- brains after transient cerebral ischemia. NCX1+/-/NKCC1+/- mice had a significantly reduced infarct volume at 24 and 72 h reperfusion. In conclusion, these data suggest that
NKCC1
in conjunction with NCX1 plays a role in reperfusion-induced brain injury after
ischemia
.
...
PMID:A concerted role of Na+ -K+ -Cl- cotransporter and Na+/Ca2+ exchanger in ischemic damage. 1791 71
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